Temperature Vs. Volume of a Gas
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Title:
Temperature vs. Volume of a Gas
Purpose:
To determine what happens to the volume of a gas sample as the temperature doubles.
Materials:
1 Beral thin-stem pipette, hot plate, 2 beakers of water, CBL temperature probe
Procedure:
Take a large beaker of room temperature water and record its temperature.
Determine the volume of the beral pipette by completely filling it with water and then holding it in a vertical position to squeeze out and count the number of drops of water it holds. At room temperature, the “empty” pipette contains air which occupies a volume that can be expressed as the number of drops observed and recorded. DO NOT squeeze the pipette again unless you are counting drops.

Place a small beaker of water on a heat source and increase the temperature of the water approximately 8o C. Remove the beaker from the heat source and allow the temperature to stabilize.

Place the empty pipette bulb into the hot water and agitate the pipette to increase the contact between the pipette bulb and the water molecules. After two minutes, flip the pipette and immediately submerge the tip into the large beaker of room temperature water. DO NOT squeeze the pipette. Record the temperature of the heated water at the time you removed the pipette.

Observe the water moving into the pipette until water movement ceases. Hold the pipette vertically and squeeze to count the additional drops of water now in the pipette. Added to the initial pipette volume, this will be the total gas volume at the new temperature.

Repeat steps 3-5 to obtain additional data points. Do not heat above 70o C.
Data Table:
Initial Volume of pipette (drops) = 137
Linear Regression:
Graph:
Questions:
What temperature scale is used when working with changes in gas volumes as conditions such as temperature or pressure vary?
The Kelvin temperature scale is used.
By examining the graph of temperature vs. Volume, what is the relationship between temperature and volume? What is the general equation for this relationship?

The relationship is a direct variation relationship. The general equation is Charles Law: (V1)(T2)=(V2)(T1)
From your graph, choose two temperature points (T1 and T2) and find the volumes that

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Temperature Vs. Volume And Beral Thin-Stem Pipette. (July 4, 2021). Retrieved from https://www.freeessays.education/temperature-vs-volume-and-beral-thin-stem-pipette-essay/